KR101762852B1 - Iris recognition apparatus - Google Patents

Abstract

The present invention relates to an iris recognition apparatus for improving the iris recognition rate of a wearer using two lights and two cameras. The iris recognition apparatus includes a database for storing iris information by distinguishing a first eyeball and a second eyeball of a wearer or a non- ; A first imaging unit including a first illumination unit for irradiating infrared rays corresponding to the first eyeball and a first imaging device for imaging an iris image of the first eyeball; A second imaging unit including a second illumination unit that is spaced apart from the first imaging unit by a predetermined distance and emits infrared rays corresponding to the second eyeball, and a second imaging device that images the iris image of the second eyeball; A comparison unit for comparing the iris information of the iris image of one of the first eyeball and the second eyeball with the iris image from the database and a control unit for controlling the operations of the first image sensing unit and the second image sensing unit, And selects an image pickup unit that considers the image pickup unit.

Description

IRIS RECOGNITION APPARATUS

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an iris recognition apparatus, and more particularly, to an iris recognition apparatus for improving the iris recognition rate of a wearer using two lights and two cameras.

Access control technology using iris recognition is applied not only to public institutions and corporations that require complement but also to home security such as access control, time attendance management, drinking water management, financial automation certification, e-commerce authentication and computer security It is a widely available technology.

Conventional access control technology includes fingerprint recognition technology, but access control technology using iris recognition extracts characteristic points or unique patterns about three times or more as compared with conventional access control technology using fingerprint recognition, There is a characteristic that there is a higher characteristic and there is no sense of rejecting the human body because it uses the non-contact method.

Access control technology using iris recognition controls the focus of a camera using infrared rays, images the user's iris with a photograph, analyzes the light and dark patterns of the iris by iris recognition algorithm, and generates a unique iris code , It is a technology to control the access control by comparing the iris code registered in the database with the analyzed iris code, thereby improving the security of the access control, so that it is emerging as a high value added technology.

Conventional access control technology using iris recognition has a problem that reflections by glasses occur when a single light source is used.

Patent Document 1 discloses an iris recognition system that detects iris images after separating iris images for each wavelength band by a color filter on iris images obtained by simultaneously lighting two different wavelength ranges of illumination.

However, in Patent Document 1, since the iris image separation process using the color filter is performed and the degree of the reaction of the separated iris images is respectively detected, the complexity of the system is increased, and iris images There is a problem that the separation process described above is repeatedly performed.

1. Korean Registered Patent No. 10-0604022 (July 14, 2006)

The present invention provides an iris recognition device for reducing reflections caused by spectacles by changing the directions of incidence of infrared rays irradiated from two illuminating lamps spaced apart from each other at predetermined intervals and improving the iris recognition rate of the wearer of the glasses.

The present invention provides an iris recognition apparatus that provides an imaging mode in which a user wearing a spectacle or a user who does not wear a spectacle prefers or is determined that the iris recognition rate is high.

The present invention provides an iris recognition apparatus for storing iris information by distinguishing a first eyeball and a second eyeball, and for reading iris information of an eye corresponding to an iris image when compared with an imaged iris image.

The iris recognition apparatus of the present invention comprises: a database for storing iris information by distinguishing a first eyeball and a second eyeball of a wearer or a non-wearer of glasses; A first imaging unit including a first illumination unit for irradiating infrared rays corresponding to the first eyeball and a first imaging device for imaging an iris image of the first eyeball; A second imaging unit including a second illumination unit that is spaced apart from the first imaging unit by a predetermined distance and emits infrared rays corresponding to the second eyeball, and a second imaging device that images the iris image of the second eyeball; A comparison unit for comparing the iris information of the iris image of one of the first eyeball and the second eyeball with the iris image from the database and a control unit for controlling the operations of the first image sensing unit and the second image sensing unit, And the high image pickup unit is selected.

Wherein the control unit controls the second illumination unit to emit infrared rays corresponding to the first eyeball if the iris recognition rate of the iris image imaged by the first imaging unit is less than the recognition threshold, If the iris recognition rate of the image is less than the recognition threshold value, the first illumination unit may control the infrared ray to be irradiated in correspondence with the second eyeball.

The iris recognition apparatus of the present invention selects an image pickup section corresponding to a selection input of the spectacle wearer or the non-spectacle wearer, in an automatic image pickup mode for automatically picking up an image corresponding to an eyeball whose focus is first adjusted among the first and second eyeballs And a mode selection unit including a manual image capture mode for manually capturing images.

The iris recognition apparatus of the present invention transmits infrared rays irradiated from the first imaging unit or the second imaging unit to irradiate the first eyeball or the second eyeball and reflects the state of the first eyeball or the second eyeball The infrared filter may further include an infrared filter.

The comparing unit may include a feature point extracting unit that extracts feature points of the iris image and a feature point comparing unit that compares feature points of the iris information and feature points of the iris image with each other.

The present invention can reduce the reflection by the spectacles by making the incidence directions of the infrared rays irradiated from the two illumination lights spaced apart from each other at predetermined intervals different.

The iris recognition rate of the wearer of the eyeglasses can be improved by selecting an iris image which is easy to extract iris feature points from among the two iris images picked up with different incidence directions and comparing them with iris information.

The present invention can provide a personalized service suitable for a wearer wearing glasses or a wearer without glasses by providing an image sensing mode in which a spectacle wearer or a person who does not wear a spectacle is preferred or an image sensing mode in which an iris recognition rate is determined to be high.

The present invention divides the first eyeball and the second eyeball to store the iris information in a database and reads the iris information of the eye corresponding to the iris image from the database in comparison with the imaged iris image to improve the response speed of the database .

1 is a block diagram showing an iris recognition apparatus of the present invention.
Fig. 2 shows an example of recognizing the iris of the wearer using the first illumination unit and the first imaging device.
Fig. 3 shows an example of recognizing the iris of the wearer using the second illumination unit and the first image pickup element.
FIG. 4 shows an example of recognizing the iris by using the automatic image pickup mode.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings and accompanying drawings, but the present invention is not limited to or limited by the embodiments.

FIG. 1 is a block diagram showing an iris recognition apparatus of the present invention. The iris recognition apparatus 10 includes a database 100, an imaging section 300, a comparison section 400, and a control section 500.

The database 100 stores the iris information by distinguishing the first eyeball and the second eyeball of the user. If the first eyeball is the left eyeball, the second eyeball is the right eyeball, the first eyeball is the right eyeball, and the second eyeball is the left eyeball. The iris has a characteristic that does not change forever after its completion after 18 months of age, and has a circular pattern that is raised to the inner side or to the vicinity of the motion. The iris information includes information on at least one feature point of the iris pattern, shape, color, and capillary morphology.

The database 100 stores iris information by distinguishing the first eyeball and the second eyeball of a user to improve a response speed or a processing speed, and provides iris information corresponding to an eye of an iris image when comparing iris images.

The database 100 includes a first eye base 110 and a second eye base 120. The first eye base 110 stores iris information for the first eye and the second eye base 120 ) Stores iris information for the second eye.

Fig. 2 shows an example of recognizing the iris of the wearer using the first illumination unit and the first imaging device. Fig. 3 shows an example of recognizing the iris of the wearer using the second illumination unit and the first imaging device Respectively.

The image pickup unit 300 includes a first image pickup unit 310 and a second image pickup unit 320 and the first image pickup unit 310 and the second image pickup unit 320 are spaced apart from each other at a predetermined interval.

The first imaging unit 310 includes a first illumination unit 311 and a first imaging unit 312. The first illumination unit 311 irradiates infrared rays corresponding to the first eye and the first imaging unit 312 ) Picks up an iris image of the first eyeball.

The second imaging unit 320 includes a second illumination unit 321 and a second imaging unit 322. The second illumination unit 321 irradiates infrared rays corresponding to the second eyeball, 2 Imagine an iris image of the eyeball.

2, the first imaging method irradiates infrared rays corresponding to the first eyeball of the wearer through the first illumination unit 311, and transmits the iris image of the first eyeball through the first image pickup element 312 .

The first imaging device 312 can capture an iris image having a low iris recognition rate by reflecting the infrared rays irradiated by the first illumination unit 311 on the first spectacle lens 20a corresponding to the first eyeball.

3, in the second imaging method, the second illumination unit 321 is irradiated with infrared rays corresponding to the first eyeball to reduce the reflection to the first spectacle lens 20a, and the second illumination unit 321 is illuminated through the first imaging element 312 An iris image with a high iris recognition rate can be obtained by picking up an iris image with respect to the first eyeball.

The difference between the first imaging method and the second imaging method is that the incident direction of the infrared rays irradiated from the illumination lamp is made different, and the recognition rate of the iris image depends on the curved surface direction of the light source of the surrounding environment or the spectacle lens, Can be high, can be low.

The first imaging method and the second imaging method described above can be used with reference to the second imaging unit 320 when acquiring an iris image of a low iris recognition rate by the first imaging method and the second imaging method.

The image pickup unit 300 transmits the infrared rays irradiated from the first image pickup unit 310 or the second image pickup unit 320 so as to be irradiated to the first eyeball or the second eyeball and transmits the state of the first eyeball or the second eyeball And an infrared ray filter 303 which reflects light. The infrared filter 303 transmits infrared rays of a predetermined wavelength band.

The comparing unit 400 reads the iris information of the iris image of one of the first eyeball and the second eyeball from the database 100 and compares the iris information with the iris image.

The comparing unit 400 includes a feature point extracting unit 410 and a feature point comparing unit 420. The feature point extracting unit 410 extracts feature points of the iris image and the feature point comparing unit 420 compares the feature points of the iris information The feature points of the iris image are compared and matched.

The iris recognition apparatus 10 of the present invention includes an automatic imaging mode 210 for automatically picking up an image corresponding to an eye whose focus is first adjusted from among the first and second eyes and an image pickup mode corresponding to a selection input of a wearer or a non- And a manual image sensing mode 220 in which the image sensing unit 300 is selected and manually picked up.

The mode selection unit 200 can provide a customized service suitable for a spectacle wearer or a spectacle wearer by providing an image sensing mode in which the spectacle wearer or spectacle wearer prefers or is determined to have a high iris recognition rate and can improve the iris recognition rate have.

The control unit 500 controls the operations of the first and second image sensing units 310 and 320 according to the selected mode.

Hereinafter, the operation method of the control unit will be described in detail through the first to fourth embodiments to which the first imaging method and the second imaging method described above are applied.

≪ First Embodiment: Operation method of the control unit when the focus of the first eye is adjusted in the automatic image pickup mode &

FIG. 4 illustrates an example of recognizing an iris using an automatic imaging mode. When the automatic iris mode is operated in the automatic imaging mode 210, the controller 500 controls the first and second eyeballs And controls the operations of the first imaging unit 310 and the second imaging unit 320 so as to automatically capture the images.

The control unit 500 controls the imaging operation of the first imaging unit 310 to be performed and adjusts the imaging operation of the second imaging unit 320 to be stopped when the focus of the first eye is adjusted first.

If the iris recognition rate of the iris image imaged by the first imaging unit 310 is less than the recognition threshold value, the control unit 500 controls the second illumination unit 321 to emit infrared rays corresponding to the first eyeball, The element 312 controls the first eyeball to be imaged.

The recognition threshold value is a threshold value related to illumination intensity, chromaticity degree, RGB, or contrast of the iris image, and is a threshold value used for distinguishing the degree of iris image damage or the degree of iris recognition rate. For example, an iris image with a low iris recognition rate can not be compared with the feature points of iris information because the pupil shape is not distinct and appears cloudy.

The controller 500 performs control so that the imaging operation of the second imaging unit 320 is performed when the iris recognition rate of the iris image imaged by the second illumination unit 321 and the first imaging device 312 is less than the recognition threshold value And controls the imaging operation of the first imaging unit 310 to be stopped.

The control unit 500 controls the first illumination unit 311 to emit infrared rays corresponding to the second eyeball if the iris recognition rate of the iris image imaged by the second imaging unit 320 is less than the recognition threshold value, And the element 322 controls to capture the second eyeball.

≪ Second Embodiment: Operation method of the control unit when the focus of the second eye is adjusted in the automatic image pickup mode >

The control unit 500 controls the imaging operation of the second imaging unit 320 to be performed when the focus of the second eye is adjusted first and controls the imaging operation of the first imaging unit 310 to be stopped.

The control unit 500 controls the first illumination unit 311 to emit infrared rays corresponding to the second eyeball if the iris recognition rate of the iris image imaged by the second imaging unit 320 is less than the recognition threshold value, And the element 322 controls to capture the second eyeball.

The control unit 500 performs control so that the imaging operation of the first imaging unit 310 is performed if the iris recognition rate of the iris image imaged by the first illumination unit 311 and the second imaging unit 322 is less than the recognition threshold value And the imaging operation of the second imaging unit 320 is stopped.

If the iris recognition rate of the iris image imaged by the first imaging unit 310 is less than the recognition threshold value, the control unit 500 controls the second illumination unit 321 to emit infrared rays corresponding to the first eyeball, And the element 312 controls the second eyeball to be imaged.

The control unit 500 determines that the iris image for the iris recognition is acquired if the iris recognition rate of the iris image is equal to or larger than the recognition threshold value, So that the imaging operation for the imaging sequence of the imaging device 1 is stopped.

≪ Third Embodiment: Operation method of the control unit when imaging the first eyeball in the manual imaging mode >

The control unit 500 controls the focus of the first eyeball to control the imaging operation of the first imaging unit 310 to be performed when receiving the selection input of the wearer of the eyeglasses or the person not wearing the eyeglasses for selecting the first imaging unit 310.

The configuration of the control unit 500 for controlling the imaging operation based on the recognition thresholds thereafter will be described with reference to the first embodiment.

≪ Fourth Embodiment: Operation method of the control unit when capturing the second eyeball in the manual image capture mode &

The control unit 500 controls the focus of the second eyeball to control the imaging operation of the second imaging unit 320 to be performed when receiving the selection input of the spectacle wearer or the non-eyeglasses wearer selecting the second image sensing unit 320. [

The configuration of the control unit 500 for controlling the imaging operation based on the recognition thresholds thereafter will be described with reference to the third embodiment.

10: iris recognition device 100: database
110: first eye base 120: second eye base
200: mode selection unit 210: automatic image sensing mode
220: manual image pickup mode 300:
310: first imaging section 320: second imaging section
400: comparing unit 410: feature point extracting unit
420: feature point comparing unit 500:

Claims (5)

A database for storing iris information by distinguishing a first eyeball and a second eyeball of a spectacle wearer or a non-eyeglass wearer;
A first imaging unit including a first illumination unit for irradiating infrared rays corresponding to the first eyeball and a first imaging device for imaging an iris image of the first eyeball;
A second imaging unit including a second illumination unit that is spaced apart from the first imaging unit by a predetermined distance and emits infrared rays corresponding to the second eyeball, and a second imaging device that images the iris image of the second eyeball;
A comparison unit for reading iris information of an iris image of one of the first eyeball and the second eyeball from the database and comparing the iris information with an iris image;
And a controller for controlling operations of the first and second image pickup units,
Wherein the control unit controls the second illumination unit to irradiate infrared rays corresponding to the first eyeball when the iris recognition rate of the iris image imaged by the first imaging unit is less than the recognition threshold value and controls the second illumination unit to emit infrared rays of the iris image imaged by the second imaging unit If the iris recognition rate is less than the recognition threshold value, the first illumination unit controls the infrared ray to be irradiated to the second eyeball,
Thereby improving the iris recognition rate of the wearer of the eyeglasses. delete The method according to claim 1,
An automatic image pickup mode in which an image is automatically picked up corresponding to an eyeball whose focus is first adjusted among the first and second eyeballs and a manual image pickup mode in which an image pickup section corresponding to a selection input of the spectacle wearer or the non- And a mode selection unit including the mode selection unit. The method according to claim 1,
Further comprising an infrared ray filter for transmitting the infrared rays irradiated from the first imaging unit or the second imaging unit to irradiate the first eyeball or the second eyeball and reflecting the state of the first eyeball or the second eyeball, Recognition device. The method according to claim 1,
Wherein,
A feature point extracting unit for extracting feature points of the iris image;
And a feature point comparing unit for comparing the feature points of the iris information and the feature points of the iris image with each other.

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